本文整理汇总了Java中com.google.zxing.common.BitSource.available方法的典型用法代码示例。如果您正苦于以下问题:Java BitSource.available方法的具体用法?Java BitSource.available怎么用?Java BitSource.available使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类com.google.zxing.common.BitSource的用法示例。
在下文中一共展示了BitSource.available方法的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Java代码示例。
示例1: decodeEdifactSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
private static void decodeEdifactSegment(BitSource bits, StringBuilder result) {
while (bits.available() > 16) {
for (int i = 0; i < 4; i++) {
int edifactValue = bits.readBits(6);
if (edifactValue == 31) {
int bitsLeft = 8 - bits.getBitOffset();
if (bitsLeft != 8) {
bits.readBits(bitsLeft);
return;
}
return;
}
if ((edifactValue & 32) == 0) {
edifactValue |= 64;
}
result.append((char) edifactValue);
}
if (bits.available() <= 0) {
return;
}
}
}
示例2: decodeHanziSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
private static void decodeHanziSegment(BitSource bits, StringBuilder result, int count)
throws FormatException {
if (count * 13 > bits.available()) {
throw FormatException.getFormatInstance();
}
byte[] buffer = new byte[(count * 2)];
int offset = 0;
while (count > 0) {
int twoBytes = bits.readBits(13);
int assembledTwoBytes = ((twoBytes / 96) << 8) | (twoBytes % 96);
if (assembledTwoBytes < 959) {
assembledTwoBytes += 41377;
} else {
assembledTwoBytes += 42657;
}
buffer[offset] = (byte) ((assembledTwoBytes >> 8) & 255);
buffer[offset + 1] = (byte) (assembledTwoBytes & 255);
offset += 2;
count--;
}
try {
result.append(new String(buffer, StringUtils.GB2312));
} catch (UnsupportedEncodingException e) {
throw FormatException.getFormatInstance();
}
}
示例3: decodeKanjiSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
private static void decodeKanjiSegment(BitSource bits, StringBuilder result, int count)
throws FormatException {
if (count * 13 > bits.available()) {
throw FormatException.getFormatInstance();
}
byte[] buffer = new byte[(count * 2)];
int offset = 0;
while (count > 0) {
int twoBytes = bits.readBits(13);
int assembledTwoBytes = ((twoBytes / 192) << 8) | (twoBytes % 192);
if (assembledTwoBytes < 7936) {
assembledTwoBytes += 33088;
} else {
assembledTwoBytes += 49472;
}
buffer[offset] = (byte) (assembledTwoBytes >> 8);
buffer[offset + 1] = (byte) assembledTwoBytes;
offset += 2;
count--;
}
try {
result.append(new String(buffer, StringUtils.SHIFT_JIS));
} catch (UnsupportedEncodingException e) {
throw FormatException.getFormatInstance();
}
}
示例4: decodeByteSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
private static void decodeByteSegment(BitSource bits, StringBuilder result, int count,
CharacterSetECI currentCharacterSetECI,
Collection<byte[]> byteSegments, Map<DecodeHintType, ?>
hints) throws FormatException {
if (count * 8 > bits.available()) {
throw FormatException.getFormatInstance();
}
String encoding;
byte[] readBytes = new byte[count];
for (int i = 0; i < count; i++) {
readBytes[i] = (byte) bits.readBits(8);
}
if (currentCharacterSetECI == null) {
encoding = StringUtils.guessEncoding(readBytes, hints);
} else {
encoding = currentCharacterSetECI.name();
}
try {
result.append(new String(readBytes, encoding));
byteSegments.add(readBytes);
} catch (UnsupportedEncodingException e) {
throw FormatException.getFormatInstance();
}
}
示例5: decodeNumericSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
private static void decodeNumericSegment(BitSource bits, StringBuilder result, int count)
throws FormatException {
while (count >= 3) {
if (bits.available() < 10) {
throw FormatException.getFormatInstance();
}
int threeDigitsBits = bits.readBits(10);
if (threeDigitsBits >= 1000) {
throw FormatException.getFormatInstance();
}
result.append(toAlphaNumericChar(threeDigitsBits / 100));
result.append(toAlphaNumericChar((threeDigitsBits / 10) % 10));
result.append(toAlphaNumericChar(threeDigitsBits % 10));
count -= 3;
}
if (count == 2) {
if (bits.available() < 7) {
throw FormatException.getFormatInstance();
}
int twoDigitsBits = bits.readBits(7);
if (twoDigitsBits >= 100) {
throw FormatException.getFormatInstance();
}
result.append(toAlphaNumericChar(twoDigitsBits / 10));
result.append(toAlphaNumericChar(twoDigitsBits % 10));
} else if (count != 1) {
} else {
if (bits.available() < 4) {
throw FormatException.getFormatInstance();
}
int digitBits = bits.readBits(4);
if (digitBits >= 10) {
throw FormatException.getFormatInstance();
}
result.append(toAlphaNumericChar(digitBits));
}
}
示例6: decodeKanjiSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
private static void decodeKanjiSegment(BitSource bits,
StringBuilder result,
int count) throws FormatException {
// Don't crash trying to read more bits than we have available.
if (count * 13 > bits.available()) {
throw FormatException.getFormatInstance();
}
// Each character will require 2 bytes. Read the characters as 2-byte pairs
// and decode as Shift_JIS afterwards
byte[] buffer = new byte[2 * count];
int offset = 0;
while (count > 0) {
// Each 13 bits encodes a 2-byte character
int twoBytes = bits.readBits(13);
int assembledTwoBytes = ((twoBytes / 0x0C0) << 8) | (twoBytes % 0x0C0);
if (assembledTwoBytes < 0x01F00) {
// In the 0x8140 to 0x9FFC range
assembledTwoBytes += 0x08140;
} else {
// In the 0xE040 to 0xEBBF range
assembledTwoBytes += 0x0C140;
}
buffer[offset] = (byte) (assembledTwoBytes >> 8);
buffer[offset + 1] = (byte) assembledTwoBytes;
offset += 2;
count--;
}
// Shift_JIS may not be supported in some environments:
try {
result.append(new String(buffer, StringUtils.SHIFT_JIS));
} catch (UnsupportedEncodingException ignored) {
throw FormatException.getFormatInstance();
}
}
示例7: decodeAlphanumericSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
private static void decodeAlphanumericSegment(BitSource bits,
StringBuilder result,
int count,
boolean fc1InEffect) throws FormatException {
// Read two characters at a time
int start = result.length();
while (count > 1) {
if (bits.available() < 11) {
throw FormatException.getFormatInstance();
}
int nextTwoCharsBits = bits.readBits(11);
result.append(toAlphaNumericChar(nextTwoCharsBits / 45));
result.append(toAlphaNumericChar(nextTwoCharsBits % 45));
count -= 2;
}
if (count == 1) {
// special case: one character left
if (bits.available() < 6) {
throw FormatException.getFormatInstance();
}
result.append(toAlphaNumericChar(bits.readBits(6)));
}
// See section 6.4.8.1, 6.4.8.2
if (fc1InEffect) {
// We need to massage the result a bit if in an FNC1 mode:
for (int i = start; i < result.length(); i++) {
if (result.charAt(i) == '%') {
if (i < result.length() - 1 && result.charAt(i + 1) == '%') {
// %% is rendered as %
result.deleteCharAt(i + 1);
} else {
// In alpha mode, % should be converted to FNC1 separator 0x1D
result.setCharAt(i, (char) 0x1D);
}
}
}
}
}
示例8: decodeByteSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
private static void decodeByteSegment(BitSource bits,
StringBuilder result,
int count,
CharacterSetECI currentCharacterSetECI,
Collection<byte[]> byteSegments,
Map<DecodeHintType,?> hints) throws FormatException {
// Don't crash trying to read more bits than we have available.
if (8 * count > bits.available()) {
throw FormatException.getFormatInstance();
}
byte[] readBytes = new byte[count];
for (int i = 0; i < count; i++) {
readBytes[i] = (byte) bits.readBits(8);
}
String encoding;
if (currentCharacterSetECI == null) {
// The spec isn't clear on this mode; see
// section 6.4.5: t does not say which encoding to assuming
// upon decoding. I have seen ISO-8859-1 used as well as
// Shift_JIS -- without anything like an ECI designator to
// give a hint.
encoding = StringUtils.guessEncoding(readBytes, hints);
} else {
encoding = currentCharacterSetECI.name();
}
try {
result.append(new String(readBytes, encoding));
} catch (UnsupportedEncodingException ignored) {
throw FormatException.getFormatInstance();
}
byteSegments.add(readBytes);
}
示例9: decodeAnsiX12Segment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
/**
* See ISO 16022:2006, 5.2.7
*/
private static void decodeAnsiX12Segment(BitSource bits,
StringBuilder result) throws FormatException {
// Three ANSI X12 values are encoded in a 16-bit value as
// (1600 * C1) + (40 * C2) + C3 + 1
int[] cValues = new int[3];
do {
// If there is only one byte left then it will be encoded as ASCII
if (bits.available() == 8) {
return;
}
int firstByte = bits.readBits(8);
if (firstByte == 254) { // Unlatch codeword
return;
}
parseTwoBytes(firstByte, bits.readBits(8), cValues);
for (int i = 0; i < 3; i++) {
int cValue = cValues[i];
if (cValue == 0) { // X12 segment terminator <CR>
result.append('\r');
} else if (cValue == 1) { // X12 segment separator *
result.append('*');
} else if (cValue == 2) { // X12 sub-element separator >
result.append('>');
} else if (cValue == 3) { // space
result.append(' ');
} else if (cValue < 14) { // 0 - 9
result.append((char) (cValue + 44));
} else if (cValue < 40) { // A - Z
result.append((char) (cValue + 51));
} else {
throw FormatException.getFormatInstance();
}
}
} while (bits.available() > 0);
}
示例10: decodeAnsiX12Segment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
private static void decodeAnsiX12Segment(BitSource bits, StringBuilder result) throws
FormatException {
int[] cValues = new int[3];
while (bits.available() != 8) {
int firstByte = bits.readBits(8);
if (firstByte != 254) {
parseTwoBytes(firstByte, bits.readBits(8), cValues);
for (int i = 0; i < 3; i++) {
int cValue = cValues[i];
if (cValue == 0) {
result.append('\r');
} else if (cValue == 1) {
result.append('*');
} else if (cValue == 2) {
result.append('>');
} else if (cValue == 3) {
result.append(' ');
} else if (cValue < 14) {
result.append((char) (cValue + 44));
} else if (cValue < 40) {
result.append((char) (cValue + 51));
} else {
throw FormatException.getFormatInstance();
}
}
if (bits.available() <= 0) {
return;
}
}
return;
}
}
示例11: decodeBase256Segment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
/**
* See ISO 16022:2006, 5.2.9 and Annex B, B.2
*/
private static void decodeBase256Segment(BitSource bits,
StringBuilder result,
Collection<byte[]> byteSegments)
throws FormatException {
// Figure out how long the Base 256 Segment is.
int codewordPosition = 1 + bits.getByteOffset(); // position is 1-indexed
int d1 = unrandomize255State(bits.readBits(8), codewordPosition++);
int count;
if (d1 == 0) { // Read the remainder of the symbol
count = bits.available() / 8;
} else if (d1 < 250) {
count = d1;
} else {
count = 250 * (d1 - 249) + unrandomize255State(bits.readBits(8), codewordPosition++);
}
// We're seeing NegativeArraySizeException errors from users.
if (count < 0) {
throw FormatException.getFormatInstance();
}
byte[] bytes = new byte[count];
for (int i = 0; i < count; i++) {
// Have seen this particular error in the wild, such as at
// http://www.bcgen.com/demo/IDAutomationStreamingDataMatrix.aspx?MODE=3&D=Fred&PFMT=3&PT=F&X=0.3&O=0&LM=0.2
if (bits.available() < 8) {
throw FormatException.getFormatInstance();
}
bytes[i] = (byte) unrandomize255State(bits.readBits(8), codewordPosition++);
}
byteSegments.add(bytes);
try {
result.append(new String(bytes, "ISO8859_1"));
} catch (UnsupportedEncodingException uee) {
throw new IllegalStateException("Platform does not support required encoding: " + uee);
}
}
示例12: decodeHanziSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
/**
* See specification GBT 18284-2000
*/
private static void decodeHanziSegment(BitSource bits,
StringBuilder result,
int count) throws FormatException {
// Don't crash trying to read more bits than we have available.
if (count * 13 > bits.available()) {
throw FormatException.getFormatInstance();
}
// Each character will require 2 bytes. Read the characters as 2-byte pairs
// and decode as GB2312 afterwards
byte[] buffer = new byte[2 * count];
int offset = 0;
while (count > 0) {
// Each 13 bits encodes a 2-byte character
int twoBytes = bits.readBits(13);
int assembledTwoBytes = ((twoBytes / 0x060) << 8) | (twoBytes % 0x060);
if (assembledTwoBytes < 0x003BF) {
// In the 0xA1A1 to 0xAAFE range
assembledTwoBytes += 0x0A1A1;
} else {
// In the 0xB0A1 to 0xFAFE range
assembledTwoBytes += 0x0A6A1;
}
buffer[offset] = (byte) ((assembledTwoBytes >> 8) & 0xFF);
buffer[offset + 1] = (byte) (assembledTwoBytes & 0xFF);
offset += 2;
count--;
}
try {
result.append(new String(buffer, StringUtils.GB2312));
} catch (UnsupportedEncodingException ignored) {
throw FormatException.getFormatInstance();
}
}
示例13: decodeByteSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
private static void decodeByteSegment(BitSource bits,
StringBuilder result,
int count,
CharacterSetECI currentCharacterSetECI,
Collection<byte[]> byteSegments,
Map<DecodeHintType,?> hints) throws FormatException {
// Don't crash trying to read more bits than we have available.
if (count << 3 > bits.available()) {
throw FormatException.getFormatInstance();
}
byte[] readBytes = new byte[count];
for (int i = 0; i < count; i++) {
readBytes[i] = (byte) bits.readBits(8);
}
String encoding;
if (currentCharacterSetECI == null) {
// The spec isn't clear on this mode; see
// section 6.4.5: t does not say which encoding to assuming
// upon decoding. I have seen ISO-8859-1 used as well as
// Shift_JIS -- without anything like an ECI designator to
// give a hint.
encoding = StringUtils.guessEncoding(readBytes, hints);
} else {
encoding = currentCharacterSetECI.name();
}
try {
result.append(new String(readBytes, encoding));
} catch (UnsupportedEncodingException uce) {
throw FormatException.getFormatInstance();
}
byteSegments.add(readBytes);
}
示例14: decode
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
static DecoderResult decode(byte[] bytes) throws FormatException {
BitSource bits = new BitSource(bytes);
StringBuilder result = new StringBuilder(100);
StringBuilder resultTrailer = new StringBuilder(0);
List<byte[]> byteSegments = new ArrayList<>(1);
Mode mode = Mode.ASCII_ENCODE;
do {
if (mode == Mode.ASCII_ENCODE) {
mode = decodeAsciiSegment(bits, result, resultTrailer);
} else {
switch (mode) {
case C40_ENCODE:
decodeC40Segment(bits, result);
break;
case TEXT_ENCODE:
decodeTextSegment(bits, result);
break;
case ANSIX12_ENCODE:
decodeAnsiX12Segment(bits, result);
break;
case EDIFACT_ENCODE:
decodeEdifactSegment(bits, result);
break;
case BASE256_ENCODE:
decodeBase256Segment(bits, result, byteSegments);
break;
default:
throw FormatException.getFormatInstance();
}
mode = Mode.ASCII_ENCODE;
}
} while (mode != Mode.PAD_ENCODE && bits.available() > 0);
if (resultTrailer.length() > 0) {
result.append(resultTrailer);
}
return new DecoderResult(bytes, result.toString(), byteSegments.isEmpty() ? null : byteSegments, null);
}
示例15: decodeHanziSegment
import com.google.zxing.common.BitSource; //导入方法依赖的package包/类
/**
* See specification GBT 18284-2000
*/
private static void decodeHanziSegment(BitSource bits,
StringBuilder result,
int count) throws FormatException {
// Don't crash trying to read more bits than we have available.
if (count * 13 > bits.available()) {
throw FormatException.getFormatInstance();
}
// Each character will require 2 bytes. Read the characters as 2-byte pairs
// and decode as GB2312 afterwards
byte[] buffer = new byte[2 * count];
int offset = 0;
while (count > 0) {
// Each 13 bits encodes a 2-byte character
int twoBytes = bits.readBits(13);
int assembledTwoBytes = ((twoBytes / 0x060) << 8) | (twoBytes % 0x060);
if (assembledTwoBytes < 0x003BF) {
// In the 0xA1A1 to 0xAAFE range
assembledTwoBytes += 0x0A1A1;
} else {
// In the 0xB0A1 to 0xFAFE range
assembledTwoBytes += 0x0A6A1;
}
buffer[offset] = (byte) ((assembledTwoBytes >> 8) & 0xFF);
buffer[offset + 1] = (byte) (assembledTwoBytes & 0xFF);
offset += 2;
count--;
}
try {
result.append(new String(buffer, StringUtils.GB2312));
} catch (UnsupportedEncodingException uee) {
throw FormatException.getFormatInstance();
}
}